♦ fiber laser has high electric-optical conversion efficiency, up to more than 30%. Low-power fiber laser does not need chiller and adopts air cooling, which can greatly save power consumption during operation, save operating cost and achieve the highest production efficiency;
♦ The laser only needs electric energy during operation, and does not need additional gas to generate the laser, with the lowest operation and maintenance costs;
♦ fiber laser adopts semiconductor modularization and redundant design. There is no optical lens in the resonator, and no start-up time is required. It has the advantages of no regulation, no maintenance and high stability, which reduces the cost of accessories and maintenance time, which is unmatched by traditional lasers.
♦ The output wavelength of fiber laser is 1.064 micron, which is 1/10 of CO2 wavelength. The output beam has good quality and high power density, which is very conducive to the absorption of metal materials and has excellent cutting and welding capability, so as to make the processing cost the lowest.
♦ The fiber route of the whole machine is fiber transmission, which does not need complicated light guide system such as reflector. The fiber path is simple, the structure is stable, and the external optical path is maintainable